Effect of static magnetic field on fractal complexity on spontaneous neuronal activity in snail
2009
Аутори:
Spasić, SlađanaNikolić, Ljiljana
Mutavdžić, Dragosav
Kartelija, Gordana
Todorović, Dajana
Остала ауторства
Đurić, DraganJakovljević, Vladimir
Тип документа:
Конференцијски прилог (Објављена верзија)
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© 2009 by the Serbian Physiological Society
Метаподаци
Приказ свих података о документуАпстракт:
Numerous studies have dealt with the effects of magnetic fields on the nervous system. In the present work we tested effect of 2.7 mT magnetic field on spontaneous Br neuron activity in subesophageal ganglia of garden snail Helix pomatia by Higuchi fractal dimension as a nonlinear measure of signal complexity in time domain. Fractal analysis was performed by estimating fractal dimension (FD) of bioelectric signals from Br neurons using Higuchi's algorithm. We used principal components analysis as a method of factor extraction in factor analysis of empirical distribution of FD. Shape of the empirical distribution of FD pointed out on bimodal pattern in complexity of spontaneous Br neuron activity. The factor analysis showed that there are two principal factors in empirical distribution of fractal dimension: F 1 and F2. The differences between factors F 1 and F2 in different experimental conditions ( control, under magnetic field (MF) and after exposure to the magnetic field (AMF)) were tested by Kolmogorov-Smimov Test. The analysis showed that there is no difference between F1 factors in control vs. MF condition, and in control vs. AMF condition. However, significant difference was found between f 2 factors in control vs. MF condition, and in control vs. AMF condition. Factor analysis also showed there is no difference between F2 factors in MF vs. AMF condition. Generally, results indicated that irreversible changes in complexity of Br neuron activity occurred after exposure to magnetic field compared to the control conditions.
Финансирање / пројекти:
- Утицај магнетних поља као екофизиолошког фактора на различите биолошке системе и могућа примена у биомедицини (RS-MESTD-MPN2006-2010-143027)
У:
- Đurić D, Jakovljević V, editors. Second Congress of Physiological Sciences of Serbia with International Participation "Current Trends in Physiological Sciences" with Internationally Recognized Satellite Symposium on Stem Cell Biology: abstract book; 2009 Sep 17-20; Kragujevac, Serbia. Belgrade: Serbian Physiological Society; 2009. p. 180.